THE DEVELOPMENT OF NON-ORGANIC WASTE WEIGHT CALCULATION SYSTEM UTILIZING MACHINE LEARNING
Waste is a problem present all over the world, including in Indonesia. Indonesia is among the countries that produce the highest amount of non-organic waste in the world, especially plastic waste. Currently, waste calculation at temporary shelter (TPS) is still carried out manually by sanitation...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77342 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Waste is a problem present all over the world, including in Indonesia. Indonesia is
among the countries that produce the highest amount of non-organic waste in the
world, especially plastic waste. Currently, waste calculation at temporary shelter
(TPS) is still carried out manually by sanitation workers. The amount of waste in a
TPS is considerable, and it takes a significant amount of time to complete the waste
calculation process. Therefore, this research objective is to develop an alternative
solution to address this waste calculation issue, which is a waste weight calculation
system utilizing machine learning. This system employs machine learning to
recognize provided waste images. The types of waste that can be recognized by the
system are non-organic waste, particularly beverage packaging waste. Once the
waste is identified, the waste calculation process will be carried out automatically.
The proposed system will be implemented in a mobile application. The method
employed in this research is the waterfall method, consisting of several stages:
requirements analysis, design planning, coding, testing, and deployment. For the
testing phase of the developed system, various tests were conducted, including
functional and non-functional requirement testing, system accuracy testing, and
waste calculation testing. The results show that the system has successfully
operated in accordance with predefined functional and non-functional
requirements. Furthermore, for the system accuracy testing, a result of 78% was
achieved, which is considered good. Lastly, for the waste calculation testing, the
system was able to perform automatic calculations for non-organic waste types. |
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